(see also www.researchgate.net/profile/Philipp_Wiedemann)

Derry JMJ, Wiedemann P, Blair P, Wang Y, Kerns JA, Lemahieu V, Godfrey VL, Wilkinson JE, Francke U (1995): The mouse homolog of the WASP gene is highly conserved and maps near the Scurfy mutation on the X chromosome. Genomics 29, 471-477

Neinhuis C and Wiedemann P (1997): Young’s moduli of isolated plant cuticles. In: Jeronimidis G and Vincent JFV (Eds.): Plant Biomechanics, Ashford Colour Press, Gosport, 103-109

Wiedemann P and Neinhuis C (1998): Biomechanics of Isolated Plant Cuticles. Plant Biology / Botanica Acta 111, 28-34

Meyer J, Wiedemann P, Okladnova O, Brüss M, Staab T, Stöber G, Riederer P, Bönisch H, Lesch K-P (1998): Cloning and functional characterization of the human norepinephrine transporter gene promotor. J. Neural Transm. 105, 1341-1350

Brüss M, Wiedemann P, Bönisch H (2002): Genomic organization and identification of naturally occurring variants of the human histamine H-3 (HRH3) receptor gene. Archiv für Experimentelle Pathologie und Pharmakologie 365:R12-R12

Wiedemann P, Bönisch H, Brüss M (2002): Structure of the human histamine H3 receptor gene (HRH3) and identification of naturally occuring variations. J. Neural Transm. 109, 443-453

Bönisch H, Brüss M, Wiedemann P (2002): Methoden und Maßnahmen zur Diagnose und Therapie von Neuroblastomen, Phäochromozytomen und des Paraganglioms, DE 10054074 A1

Bönisch H, Wiedemann P, Runkel F, Giros B, Roubert C Brüss M (2002): Mutants and variants of the human antidepressant-sensitive norepinephrine transporter. In: Nagatsu T, Nabeshima T, Mc Carty R, Goldstein DS (Eds.): Catecholamine Research, Kluwer Academic/Plenum Publishers, New York, 35-38

Diestelmaier F*, Wiedemann P*, Brüss M, Bönisch H (2004): Functional importance of the carboxy terminus of the human norepinephrine transporter. J. Neurochem. 91, 537-546 * These authors contributed equally to the work

Wiedemann P, Guez JS, Cassar JP, Egner F, Wiegemann H, Quintana JC, Storhas W, Schwiebert C, Schneider P, Asanza-Maldonado D, Wilkesman J, Suhr H (2010): Optical Sampling in-situ Microscopy for on-line Monitoring of Animal Cell Cultures. IFAC-PapersOnline, Computer Applications in Biotechnology 11 (1), 197-202

Wiedemann P, Guez JS, Wiegemann HB, Egner F, Quintana JC, Asanza-Maldonado D, Filipaki M, Wilkesman J, Schwiebert C, Cassar JP, Dhulster P, Suhr H (2011): In situ microscopic cytometry enables noninvasive viability assessment of animal cells by measuring entropy states. Biotechnol Bioeng 108(12), 2884-2993

Wiedemann P, Worf M, Wiegemann HB, Egner F, Schwiebert C, Wilkesman J, Guez JS, Quintana JC, Assanza D, Suhr H (2011): On-line and real time cell counting and viability determination for animal cell process monitoring by in situ microscopy. BMC Proceedings 5(Suppl 8), P77

Wiedemann P, Egner F, Wiegemann H, Quintana JC, Storhas W, Guez JS, Schwiebert C, Suhr H (2012): Advanced In Situ Microscopy for On-Line Monitoring of Animal Cell Culture. In: Jenkins N, Barron N, Alves P (Eds.): Proceedings of the 21st Annual Meeting of the European Society for Animal Cell Technology (ESACT), Dublin, Ireland, June 7-9, 2009; Springer, Dordrecht, 491-496

Wiedemann P und Storhas W (2013): Stellung und Aufgaben der Zellkulturtechnik. In: Storhas, W: Bioverfahrensentwicklung; Wiley-VCH, Weinheim, 69-116

Wiedemann P, Scheuermann S, Schwamb S, Schneider P, Suhr H (2013): In-situ-Mikroskopie für die Bioprozessanalytik. GIT Labor-Fachzeitschrift 2/2013, 98–99

Kuhns S, Schmidt KN, Reymann J, Gilbert DF, Neuner A, Hub B, Carvalho R, Wiedemann P, Zentgraf H, Erfle H, Klingmüller U, Boutros M, Pereira G (2013): The microtubule affinity regulating kinase MARK4 promotes axoneme extension during early ciliogenesis. J Cell Biol 200(4), 505-522

Belini VL,Wiedemann P, Suhr H (2013): In situ microscopy: A perspective for industrial bioethanol production monitoring. J Microbiol Methods 93, 224–232

Schwamb S, Munteanu B, Meyer B, Hopf C, Hafner M, Wiedemann P (2013): Monitoring CHO cell cultures: Cell stress and early apoptosis assessment by mass spectrometry. J Biotechnol 168, 452–461

Schwamb S, Munteanu B, Meyer B, Hopf C, Hafner M, Wiedemann P (2013): Intact cell MALDI mass spectrometry biotyping for “ at-line ” monitoring of apoptosis progression in CHO cell cultures. BMC Proceedings 7(Suppl 6), P8

Schwamb S, Hafner M, Hopf C, Wiedemann P (2014): „Intact Cell” MALDI-TOF MS: Monitoring von Zellstress in CHO-Zellkultivierungsansätzen. Chemie Ingenieur Technik 86(9),  1574-1592

Schwamb S, Puskeiler R, Wiedemann P (2015): Monitoring of Cell Culture. In: Al-Rubeai, M (Ed.): Cell Engineering: Animal Cell Culture; Springer International, Basel, 185-221

Schwamb S and Wiedemann P (2015): MALDI-TOF mass spectrometry biotyping: At-line monitoring of recombinant CHO cell cultures. BMC Proceedings, 9(Suppl 9), P53

Carvalho R, Wiedemann P, Pereira G (2015): MARK4 contributes to cilia formation by regulating the degradation of inhibitory OFD1 from the centriolar satellites. Abstract. Cilia 4(Suppl 1): P27

Dunkel T, Dias PA, de Leon Gallegos EL, Tacke V, Schielke A, Suhr H, Hesse T, Sierra Fajado DA, Wiedemann P, Denecke M (2015): In situ Microscopy as a tool for the monitoring of filamentous bacteria: a case study in an industrial activated sludge system dominated by M. parvicella. Wat Sci Tech, DOI:  10.2166/wst.2015.612

Sierra DA, Janetzko K, Dobrinski C, Bieback K, Suhr H, Wiedemann P (2015): Automated microscopic evaluation of Red Blood Cell storage lesion. Transfus Med Hemother 42(suppl 1), 26

Dias PA, Dunkel T, Sierra Fajado DA, de León Gallegos EL, Denecke M, Wiedemann P, Schneider FK, Suhr H (2016): Image processing for identification and quantification of filamentous bacteria in in situ acquired images BioMedical Engineering OnLine 15:64, DOI: 10.1186/s12938-016-0197-7

Sierra F DA, Melzak KA, Janetzko K, Klüter H, Suhr H, Bieback K, Wiedemann P (2017): Flow morphometry to assess the red blood cell storage lesion. Cytometry A 91(9), 874-882

Schwamb S und Wiedemann P (2017): At-line Monitoring von Zellkulturprozessen mittels Massenspektrometrie. BioSpektrum 4/17, 399-402

Tric M, Lederle M, Neuner L, Dolgowjasow I, Wiedemann P, Wölfl S, Werner T (2017): Optical biosensor optimized for continuous in-line glucose monitoring in animal cell culture. Anal Bioanal Chem 409, 5711–5721; full-text view only Link: rdcu.be/uluA

Belini VL, Caurin GAP, Wiedemann P, Suhr H (2017): Yeast fermentation of sugarcane for ethanol production: Can it be monitored by using in situ microscopy? Braz J Chem Eng 34(04), 949 – 959

Suhr H, Sierra D, Bieback K, Wiedemann P (2018): Hämatologische Diagnose suspendierter Erythrozyten mit Hilfe des rollenden Bewegungsmodus in laminarer Strömung. Offenlegungsschrift DE10 2016 013 095 A1

Fernandes P, Howland S, Heiss K, Hoffmann A, Hernandez-Castaneda MA, Vochyanova K, Frank R, Wiedemann P, Bendszus M, Rénia L, Mueller AK (2018): A Plasmodium cross-stage antigen contributes to the development of Experimental Cerebral Malaria. Frontiers in Immunology, 9:1875

Schwedhelm I, Zdzieblo D, Appelt-Menzel A, Berger C, Schmitz T, Schuldt B, Franke A, Müller FJ, Pless O, Schwarz T, Wiedemann P, Walles H, Hansmann J (2019): Automated real-time monitoring of human pluripotent stem cell aggregation in stirred tank reactors. Scientific Reports 9, Article 12297

Lederle M, Tric M, Packi C, Werner T, Wiedemann P (2020): An Optical Biosensor for Continuous Glucose Monitoring in Animal Cell Cultures. In: Pörtner R (ed.): Animal Cell Biotechnology: Methods and Protocols, Methods in Molecular Biology, vol. 2095, Springer Nature, Berlin

Belini VL, Suhr H, Wiedemann P (2020): Online monitoring of the morphology of an industrial sugarcane biofuel yeast strain via in situ microscopy. J Microbiol Methods 175:105973. doi: 10.1016/j.mimet.2020.105973

Loges KM, Wiedemann P, Hitzmann B, Preuß K (2020) Automated cell concentration control in bioreactors. Chemie Ingenieur Technik 92(9), 1337-1338

Uhler R, Popa-Wagner R, Kröning M, Brehm A, Rennert P, Seifried A, Peschke M, Krieger M, Kohla G, Kannicht C, Wiedemann P, Hafner M, Rosenlöcher J (2021) Glyco-engineered HEK 293-F cell lines for the production of therapeutic glycoproteins with human N-glycosylation and improved pharmacokinetics. Glycobiology, doi: 10.1093/glycob/cwaa119

Gumbel M, Wiedemann P (2021): Motif lengths of circular codes in coding sequences. J Theor Biol. 523:110708. doi: 10.1016/j.jtbi.2021.110708

Lederle M, Tric M, Roth T, Schütte L, Rattenholl A, Lütkemeyer D, Wölfl S, Werner T, Wiedemann P (2021) Continuous optical in-line glucose monitoring and control in CHO cultures contributes to enhanced metabolic efficiency while maintaining darbepoetin alfa product quality. Biotechnol J. May 18:e2100088. doi: 10.1002/biot.202100088. Epub ahead of print. PMID: 34008350

Belini VL, Junior OM, Ceccato-Antonini SR, Suhr H, Wiedemann P (2021): Morphometric quantification of a pseudohyphae forming Saccharomyces cerevisiae strain using in situ microscopy and image analysis. J Microbiol Methods 190:106338. doi: 10.1016/j.mimet.2021.106338

Schwamb S, Engel M, Werner T, Wiedemann P (2021): Industrial Monitoring of Cell Culture. In: Poertner R (ed.): Cell Culture Engineering and Technology, Cell Engineering 10; Springer International, Basel, 185-221; 511 – 540. doi.org/10.1007/978-3-030-79871-0_17

Boecker C, Sitzmann N, Halblaub Miranda JL, Suhr H, Wiedemann P, Bieback K, Rudolph M, Klüter H (2022): Noninferior Red Cell Concentrate Quality after Repeated Air Rescue Mission Transport for Prehospital Transfusion. Transfus Med Hemother 49:172–179. doi: 10.1159/000520650